RU2099800C1 - Method for control of gas-discharge alternating current indication board with surface discharge - Google Patents

Abstract

FIELD: radio engineering. SUBSTANCE: each element of indication board has control electrode for one coordinate and at least two parallel co-planar electrodes for another coordinate. Corresponding method involves loading, address and indication modes. During indication mode, discharge is moved in reverse direction with respect to each pair of adjacent parallel co-planar indication electrodes of indication element. Phases of discharge voltage pulses are tuned in order to achieve condition that only in one indication electrode its polarity of wall charge differs from polarity of all other indication electrodes of this indication element. EFFECT: increased brightness and light emission. 6 cl, 7 dwg

Description

 The invention relates to gas discharge technology and can be used in display systems containing gas discharge display panels of alternating current.

A known method of controlling a gas discharge indicator panel of alternating current with a surface discharge, each display element of which contains a control electrode in one of the coordinates and two parallel indicator electrodes in another coordinate, including the preparation, addressing and indication modes [1]
The reasons that impede the achievement of the required technical result when using the known method include the fact that in the known method there are no conditions for increasing light output, since a discharge in the display mode is formed only in the gap between two electrodes, the area of which is only a small part of the area of the display element.

A known method of controlling a gas-discharge indicator panel of alternating current with a surface discharge, each display element of which contains a control electrode in one of the coordinates and two parallel indicator electrodes in another coordinate, including a display mode and simultaneous control of several display elements in the preparation mode and several display elements in the mode addressing [2]
The reasons that impede the achievement of the required technical result when using the known method include the fact that in the known method there are no conditions for increasing light output, since a discharge in the display mode is formed only in the gap between two electrodes, the area of which is only a small part of the area of the display element.

The closest method of the same purpose to the claimed object in terms of features is a method of controlling a gas-discharge alternating current display panel with a surface discharge, each display element of which contains a control electrode in one of the coordinates and more than two parallel coplanar electrodes in a different coordinate, including the preparation mode, in the time of which in all display elements a sequence of discharges is formed due to the supply of pulses of recording voltage pulses and maintaining the discharge, the addressing mode, during which preparation for switching to the display mode of the selected display elements is provided by supplying addressing pulses to the display elements, and the indication mode, during which a cyclic sequence of discharges is formed in each selected display element due to the supply of pulses of voltage to maintain the discharge on the parallel electrodes taken as a prototype [3]
For reasons that impede the achievement of the required technical result when using the known method adopted as a prototype, the known method has no conditions for increasing light output, since discharges in the display mode are formed only in the gap between two electrodes, the size of which is only small part of the area of the display element, and, accordingly, the excitation of the photophosphor located in the display element outside the specified interval is carried out are inefficient.

 The invention consists in the following.

 The proposed control method solves the problem of improving the operational parameters of display systems containing gas discharge display panels of alternating current.

When carrying out the invention, the following technical results can be obtained:
increased brightness of the glow of the gas discharge display panel and light output;
increased reliability of addressing circuits and the display system as a whole; reduced cost of the display system. The specified technical result in the implementation of the invention is achieved by the fact that in the known method,
including the preparation mode, during which a sequence of discharges is formed in all display elements due to the supply of general recording pulses and discharge maintaining voltage pulses to the display elements electrodes, the addressing mode, during which preparation for switching to the display mode of the selected display elements due to electrodes of display elements of addressing pulses, and an indication mode during which a cyclic sequence of discharges is formed in each selected th element of the display by applying sustain discharge voltage pulses to the parallel electrodes,
in the indication mode, the discharge is reversibly moved between each pair of any adjacent parallel coplanar indicator electrodes of the display element, while the phases for supplying the pulses of the voltage to maintain the discharge are set so that for only one indicator electrode the polarity of the wall charge does not coincide with the polarity of the wall charges for other indicator electrodes of this display element
in the preparation mode, the general recording pulses are fed to two parallel adjacent indicator electrodes of each display element and at least one reverse discharge discharge cycle is performed;
for a gas-discharge indicator panel, each element of which contains three parallel planar electrodes, in the preparation mode, general-write pulses are fed to the middle indicator electrode, and in the addressing mode, control pulses are formed on one of the extreme indicator electrodes, the amplitudes of the discharge-maintaining voltage pulses supplied to the average and extreme indicator electrodes are set not equal to each other,
in the indication mode, between parallel coplanar indicator electrodes, the discharges formed simultaneously in several gaps are reversed in such a way that during a cycle of reverse movement, a discharge is formed between each pair of any adjacent indicator electrodes of the display element,
in the indication and / or preparation mode, the addressing circuits of the control electrodes are set to a high-impedance state.

 Reversible discharge movement in the indication mode between each pair of any adjacent parallel coplanar indicator electrodes ensures the formation of a discharge in several discharge gaps, the dimensions of the total area of which are close to the area of the display element and, accordingly, the photoluminophore is effectively excited throughout the display element, which makes it possible to increase the brightness of the glow and light output: the supply of general recording pulses to two parallel adjacent indicator electrodes eliminates in the preparation of the work of the control electrode, which does not cause additional degradation of the photoluminophore and allows you to set the addressing circuit of these electrodes in a high impedance state and thereby increase the reliability of their work; at least one cycle of reverse discharge displacement in the preparation mode provides the removal of the statistical statistical delay of the occurrence of the discharge and the ability to set the optimal amplitude of the voltage pulses for maintaining the discharge for all indicator electrodes in the display mode and thereby also increase the reliability of operation and reduce the cost of the display system; applying a general recording pulse to the middle indicator electrode and control pulses to one of the extreme indicator electrodes for the gas-discharge indicator panel containing three indicator electrodes, as well as unequal amplitudes of the discharge maintaining voltage pulses supplied to different indicator electrodes, allows to reduce the voltage between the electrode inputs and thereby improving the reliability of the display system; the formation of a discharge simultaneously in several discharge gaps between the parallel electrodes of the display element can increase the brightness of the glow; the installation of the addressing circuits of the control electrodes in a high impedance state reduces the power passing through these circuits, and thereby increases the reliability of their work, and also reduces the cost of the display system.

 An analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention, and the definition from the list identified analogues of the prototype, as the closest in the totality of the characteristics of the analogue, allowed to identify the set of essential in relation to claimed by the applicant the technical result of the distinguishing features in the claimed object set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

To verify the conformity of the claimed invention to the requirements of the inventive step, the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed invention from the prototype, the results of which show that the claimed invention does not follow explicitly from the prior art, since the level the technique defined by the applicant has not revealed the effect provided for by the essential features of the claimed invention transformed REPRESENTATIONS to achieve a technical result, in particular, the claimed invention does not provide the following transformations:
supplementing a known product with any known part to achieve a technical result in respect of which the effect of such additions is established;
the replacement of any part of the known means with another known part to achieve a technical result, in respect of which the effect of such a replacement is established;
the exclusion of any part of the funds with the simultaneous exclusion of the function due to its presence and the achievement of the usual result for such an exception:
the increase in the number of elements of the same type to enhance the technical result due to the presence in the tool of just such elements;
the implementation of a known tool or part thereof from a known material to achieve a technical result due to the known properties of the material;
the creation of a tool consisting of known parts, the choice of which and the relationship between them are based on known rules, and the technical result achieved in this case is due only to the known properties of the parts of this object and the relationships between them.

Therefore, the claimed invention meets the requirement of "inventive step" under applicable law
The materials explaining the claimed object are presented in the drawings, where in FIG. 1 schematically shows a gas discharge display panel of an alternating current with a surface discharge: in FIG. 2 shows timing diagrams of voltage pulses applied to the electrodes of a display element; in FIG. 3 diagrams of states of electric charges; in FIG. 4 are timing diagrams of the discharge maintaining voltage pulses for a display element containing n indicator electrodes: in FIG. 5 state diagrams of electric charges for a display element containing n indicator electrodes; in FIG. 6 state diagrams of electric charges while simultaneously forming a discharge in several (in particular, two) discharge gaps of the display element; in FIG. 7 is a timing diagram of the voltage pulses for maintaining the discharge while simultaneously forming the discharge in several discharge gaps of the display element.

 The gas discharge indicator panel shown in FIG. 1, consists of display elements 1, each of which contains a control electrode 2 at the X coordinate and three parallel coplanar indicator electrodes 3, 4 and 5 at the Y coordinate. The control electrodes are located on the glass plate 6, and the indicator electrodes with a transparent dielectric coating 7 are located on the upper glass plate 8. A photoluminophore 10, for example, red R, green G, or blue B, is applied to the control electrodes and the side surfaces of the dielectric separation barriers 9. All control electrodes have inputs for connecting to the source 11 pulses of addressing along the X coordinate, and indicator electrodes to the multiphase source 12 pulses of voltage maintaining the discharge, general recording and addressing along the Y coordinate.

 Information confirming the possibility of carrying out the invention to obtain the above technical result are as follows.

 The voltage pulses shown in FIG. 1 are applied to the electrodes of the display elements in the preparation, addressing and indication mode. 2.

In the preparation mode, in the time interval T ₁ , parallel recording electrodes 3 and 4 are supplied with general recording pulses 13 and 14, the total amplitude of which is sufficient to form a discharge in the gap between these electrodes, then, in the interval T _2, a voltage maintaining pulse of discharge 15 is applied to electrode 4, causing a discharge in the same interval in the reverse direction, then in the interval T _3, sustain discharge voltage pulse 16 to the electrode 5, which ensures the formation of a discharge in the gap between the electrodes 4 and 5 and, thereby, completing the cycle roar rsivnogo displacement discharge mode in preparation. The electrode addressing circuit 2 in preparation mode is in the high-impedance state of Hi Z.

In the addressing mode in the interval T _4, control pulses 17 and 18 are supplied to the electrodes 2 and 5 in the unselected display elements.

In the indication mode in the intervals T _{5 ...} -T _{10 ...} the electrodes 3, 4 and 5 are supplied with a multiphase system of voltage pulses for maintaining the discharge 19, 20, 21, the amplitude of which is necessary and sufficient for the reverse movement of the discharge from the gap between the electrodes 4 and 5 in the gap between the electrodes 4 and 3, then again in the gap between the electrodes 4 and 5, and so on until the indication mode is completed by applying pulses to the general recording, that is, when switching to the preparation mode. Address chain
electrode 2 in the display mode is in a high impedance state Hi Z.

 The state diagrams of electric charges in the display element for the considered time diagram are presented in FIG. 3.

In the preparation mode, in the interval T ₁ , the discharge current flows from the electrode 3 to the electrode 4, creating electric charges on the dielectric coating of the electrodes, the polarity of which is indicated in FIG. 3. In the interval T _{2, the} direction of current flow in this gap and the polarity of the charges are reversed. In the interval T ₃ , the discharge current flows from the electrode 5 to the electrode 4.

In the addressing mode in the interval T ₅ in unselected display elements, a discharge is formed in the gap between electrodes 2 and 5, and due to the flow of discharge current, the polarity of the electric charge on the dielectric coating of electrode 5 changes and the polarity of charges for all electrodes of the unselected display elements becomes the same. A discharge is not formed in the selected display elements, and the polarity of the accumulated electric charges in these display elements will not change.

In the display mode in the interval T ₅ in the selected display elements, the current flows from the electrode 4 to the electrode 5 and then the discharge is reversed in the intervals T _{6 ...} T _{10 ...} , as indicated in FIG. 3. In this case, for only one indicator electrode, the polarity of the wall charge does not coincide with the polarity of the wall charges for the other two indicator electrodes. Discharges are not formed in the unselected display elements, since the amplitude of the voltage pulses for maintaining the discharge is insufficient to form a discharge in the presence of identical charges on the dielectric coating of all indicator electrodes of the display element.

 For a display element containing a control electrode in one of the coordinates and n indicator electrodes in a different coordinate, in order to realize reverse movement of the discharge, the indicator electrodes are supplied in accordance with the time diagram shown in FIG. 4, the multiphase system of voltage pulses for maintaining the discharge 22.26 and the discharges are successively displaced in time in the gaps formed by each pair of any adjacent indicator electrodes, first in one direction, then back, etc. as shown in FIG. 5. In this case, for only one indicator electrode, the polarity of the wall charge does not coincide with the polarity of the wall charges for other indicator electrodes. Otherwise, the control method is carried out similarly to that previously discussed in FIG. 1 3 occasion.

 A variant of the simultaneous formation of discharges in several (in particular, in two) discharge spaces of the display element in the indication mode is shown in FIG. 6, which shows the direction of passage of the discharge current and the polarity of the charges accumulated on the dielectric coating of the electrodes.

In the time interval T _{1, a} discharge is formed simultaneously in the gaps between two pairs of indicator electrodes, in the time interval T ₂ in the same gaps, but in the opposite direction. In the time interval T _{3 the} discharges shift one space to the left, in the time interval T ₄ another space to the left. In the time interval T _{5, the} discharges form in the same intervals in the opposite direction, in subsequent intervals they are shifted to the right, then to the left, etc. The formation of discharges and their shift is carried out by applying to the indicator electrodes a three-phase sequence of pulses 27, 28, 29, shown in FIG. 7, while the indicator electrodes of one display element are combined into three groups through two electrodes.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed invention:
means embodying the claimed invention in its implementation, is intended for use in industry, namely, in display systems containing gas discharge display panels of alternating current;
for the claimed invention, in the form described in the independent clause of the claims below, the possibility of its implementation using the means and methods described above or known prior to the priority date is confirmed;
means embodying the claimed invention in its implementation, is capable of achieving the achievement of the technical result perceived by the applicant.

 Therefore, the claimed invention meets the requirement of "industrial applicability" under applicable law.

Claims (6)

 1. A method for controlling a gas-discharge AC display panel with a surface discharge, each display element of which contains a control electrode in one of the coordinates and more than two parallel coplanar electrodes in a different coordinate, including a preparation mode during which a sequence of discharges is formed in all the display elements due to supply to the electrodes of the display elements of the pulses of the general recording and pulses of the voltage to maintain the discharge, the addressing mode, during which preparation is made for switching to the display mode of the selected display elements by supplying control pulses to the display elements, and an indication mode during which a cyclic sequence of discharges is formed in each selected display element due to the supply of discharge maintaining voltage pulses to parallel coplanar electrodes, characterized in that in the indication mode the discharge is reversibly moved between each pair of any adjacent parallel coplanar electrodes of the element is displayed In this case, the phases of the supply of pulses of the discharge voltage are set in such a way that for only one of these electrodes the polarity of the wall charge does not coincide with the polarity of the wall charges for other parallel coplanar electrodes of this display element.  2. The method according to p. 1, characterized in that in the preparation mode, the general recording pulses are fed to two adjacent parallel coplanar electrodes of each display element and at least one cycle of reverse discharge discharge is carried out.  3. The method according to claim 1, characterized in that in the indication mode between the parallel coplanar electrodes, the discharges are formed, which are generated simultaneously in several intervals in such a way that during a cycle of reverse movement, a discharge is formed between each pair of any adjacent parallel coplanar electrodes of the display element.  4. The method according to claim 1 for a gas-discharge indicator panel, each element of which contains three parallel coplanar electrodes, characterized in that in the preparation mode, the general recording pulses are fed to the middle parallel coplanar electrode, and in the addressing mode, control pulses are generated at one of the extreme parallel coplanar electrodes.  5. The method according to claim 4, characterized in that the amplitudes of the pulses of the voltage to maintain the discharge supplied to the middle and extreme parallel coplanar electrodes are set not equal to each other.  6. The method according to claims 1 to 4, characterized in that in the mode of indication and / or preparation of the addressing circuit of the control electrodes is set to a high impedance state.

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